FTIR spectroscopic metabolome analysis of lyophilized and fresh Saccharomyces cerevisiae yeast cells

CORREA GARCIA SUSANA; BERMUDEZ MORETTI MARIANA; TRAVO ADRIAN; DELERIS GERARD; FORFAR ISABELLE

Analytical Methods

Royal Society of Chemistry

Año: 2014 vol. 6 p. 1855 - 1861

1759-9660

The yeast Saccharomyces cerevisiae is widely used as a biological eukaryotic model and also serves as a biotechnology production organism. One of the methods used to avoid degradation of the yeast cells content is lyophilisation. The use of lyophilized yeast cells has several advantages over fresh ones: samples can be easily transported and/or stored and variations of their metabolomic profiles do not occur during transport or storage. Fourier transform infrared (FTIR) spectroscopy is one of the most emerging approaches in modern biology that permits to operate on very small quantities of whole cells without the need of extractions or purifications. This technique is very sensitive and not only allows the discrimination between different cell genotypes but also between different growth conditions. FTIR spectra provide interesting data on the metabolic status of the whole cell. Modern multivariate data processing was applied to analyse live fresh or lyophilized S. cerevisiae cells from different growth media. This study clearly demonstrate that yeast cells coming from an identical biological medium can be used indiscriminately for FTIR analysis whether they are analysed directly as live fresh cells or after lyophilization which is a freeze-drying process. Moreover, FTIR data obtained using lyophilized cells showed less variability.